The Internet of Things smells like opportunity for everyone. There is no industry that hasn't been touched by the notion of smart "things" enabling convenience or collaboration or control in every aspect of our lives. From healthcare to entertainment, from automotive to financials, the Internet of Things is changing the way we work, live and play.

That's the view from the consumer side, from the perspective of someone using the technology made available by <insert vendor/provider here>. But before that consumer could get their hands on the technology -and the inevitable accompanying "app" that comes with it - the provider/vendor had a lot of work cut out for them.

Whether it was building out licensing and activation servers, a remote-based control application, or a data exchanging service, the provider of this "thing" and its supporting ecosystem of applications had to design and implement systems. One of those systems is inevitably related to storage and retrieval of data.

That's because a key consideration of nearly all "things" is that while they pack quite the computing punch (as compared historically to mobile devices) they are still constrained with respect to storage capabilities.These devices are generating more data than most people can fathom.

Globally, smart devices represented 21 percent of the total mobile devices and connections in 2013, they accounted for 88 percent of the mobile data traffic. In 2013, on an average, a smart device generated 29 times more traffic than a non-smart device.

Not only are the things themselves incapable of storing the vast quantities of data generated in the long term, providers/vendors are unlikely to have the spare storage capacity readily available to manage it. Even if they do, it's a rare organization that has in place the controls and multi-tenancy necessary to support the storing such data with the privacy expected (and demanded) by consumers.

Add to that the reality that they're small and portable and often dropped into the most inconvenient of places by their owners (or their owners' children) and the result is a need to ensure off-thing storage of data. Just in case.

What that means is the Internet of Things is driving the use of HTTP and solidifying its status as the "new TCP". Things communicate with applications to store and retrieve a variety of data. This communication is generally accomplished over the Internet - even though it may start out over a cellular network - and that means using the linga franca of the web, HTTP. Additionally, HTTP is ubiquitous, the market for developers is saturated, and support for HTTP is built into most embedded systems today.

So HTTP will be used to store and retrieve data for all these "things", that seems a foregone conclusion. But what about storage and capacity?

Ready or NotThe question is whether the provider/vendor of the thing is going to take on the challenges of capacity and storage themselves or, as is increasingly the case, turn to the public cloud. The public cloud option has many benefits, particularly in that it's cheap, it already exists, and its enabled with the APIs (accessible via HTTP) required to integrate it with a mobile app or thing. It's already multi-tenant and supportive of the level of privacy required by consumers, and it grows on-demand without requiring staff to spend time racking more compute and storage in the data center.

It seems likely, then, that not only will things and mobility continue to drive the dominance of HTTP but will also increase use of public cloud services. Certainly there are industries and segments within the "things" and mobile app categories that make using public cloud unacceptable. My mobile banking and financial apps, for example, are not storing data anywhere but safely inside the (hopefully very secure) walls of their respective institutions.

My Minecraft game on the Xbox 360, however, offers up "cloud" as a storage device, which means I can create new worlds til the cows come home. My smartpen synchronizes with Evernote. My iPhone is constantly nagging me to use iCloud because, well, it's available. With Google's acquisition of Nest, if its data and control applications weren't being run in Google's cloud, they probably will be in the future.

The reality is that many organizations are not architecturally ready from the network and operations perspective to take on the challenges that will be encountered by a foray into the Internet of Things. But to let it pass them by is also not acceptable.

That may very well drive organizations to the cloud to avoid missing these early days of opportunity.

Lori MacVittie is responsible for education and evangelism of application services available across F5’s entire product suite. Her role includes authorship of technical materials and participation in a number of community-based forums and industry standards organizations, among other efforts. MacVittie has extensive programming experience as an application architect, as well as network and systems development and administration expertise. Prior to joining F5, MacVittie was an award-winning Senior Technology Editor at Network Computing Magazine, where she conducted product research and evaluation focused on integration with application and network architectures, and authored articles on a variety of topics aimed at IT professionals. Her most recent area of focus included SOA-related products and architectures. She holds a B.S. in Information and Computing Science from the University of Wisconsin at Green Bay, and an M.S. in Computer Science from Nova Southeastern University.

Cisco (NASDAQ: CSCO) enables people to make powerful connections-whether in business, education, philanthropy, or creativity. Cisco hardware, software, and service offerings are used to create the Internet solutions that make networks possible-providing easy access to information anywhere, at any time.Cisco was founded in 1984 by a small group of computer scientists from Stanford University. Since the company's inception, Cisco engineers have been leaders in the development of Internet Protocol (IP)-based networking technologies. Today, with more than 67,647 employees worldwide, this tradition of innovation continues with industry-leading products and solutions in the company's core development areas of routing and switching, as well as in advanced technologies such as: Application Networking, Data Center, Digital media, IPICS, Mobility, Security, Storage Networking, TelePresence, Unified Communications, Video, Virtualization.

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